Promising Future of Novel Beta-Lactam Antibiotics Against Bacterial Resistance
Saeed M Tayeb, Jaser Alharbi, Bushra Alattas, D. S. Al-Otaibi, Nawaf Althibaiti, Jaser Alharbi, Ahmad SafirAldeen, Ibrahim M. Alqurashi, Saad Wali
Abstract
Background: Antimicrobial resistance is a growing global concern that compromises the efficacy of antibiotics, particularly due to the misuse and overuse of these agents. Beta-lactam antibiotics, widely used for their broad-spectrum activity, are increasingly threatened by bacterial resistance mechanisms. Recent studies showed that resistant Gram-negative bacteria cause many hospital infections, which makes the search for new treatments very urgent. Objective: This review explores recent advancements in the development of novel beta-lactam antibiotics, including new drug combinations and structural modifications designed to overcome beta-lactamase degradation and effectively target mutated penicillin-binding proteins (PBPs). Literature Review: One of the main resistance mechanisms in Gram-negative bacteria is the production of beta-lactamases, which break the beta-lactam ring and stop the drug from working. New ideas include adding more than one beta-lactam ring in the drug, combining with strong beta-lactamase inhibitors, and making hybrid structures. These strategies have shown promising results in preclinical evaluations. Conclusion: Novel beta-lactam antibiotics demonstrate significant potential in combating resistant bacterial strains. Future directions should emphasize large-scale in vivo validation, the incorporation of novel β-lactamase inhibitors, and the development of advanced drug delivery systems. Integration of these strategies may enhance the clinical applicability of β-lactams and provide sustainable solutions to address the global burden of antimicrobial resistance.